Affiliation:
1. Drexel University Philadelphia, PA 19104
2. Lockheed Palo Alto Research Laboratory Palo Alto, CA 94304
Abstract
This paper is concerned with the basic fracture mechanisms involved in matrix-dominated failures in fibrous composite laminates, Specifically, interlaminar fracture in the form of free-edge ply delamination and intra- laminar fracture in the form of multiple transverse cracks are investigated. In each case, a theory is formulated based on the classical linear fracture mechanics concept of strain energy release rate as a criterion for crack growth. A finite element technique incorporating the virtual crack-closure procedure is developed to generate numerical results. Simultaneously, an experimental study is conducted using a series of graphite epoxy laminates in the form of (±25/90 n) s, n = 1,2,3. Part 1 of this paper presents the development of the method from the conceptual, physical and numerical considerations, while Part 2 provides for a comparison between the analyti cal and experimental results.
Subject
Materials Chemistry,Mechanical Engineering,Mechanics of Materials,Ceramics and Composites
Reference22 articles.
1. M.G. Bader, J.E. Bailey, P.T. Curtis and A. Parvizi, "The Mechanisms of Initiation and Development of Damage in Multi-axial Fibre-Reinforced Plastics Laminates," Proc. 3rd. Int. Symp. Mech. Behavior of Matls Cambridge U.K., Vol. 3, (1979), p. 227.
2. Theory of multiple fracture of fibrous composites
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